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Assessing the impact of injector included angle and piston geometry on thermally stratified compression ignition with wet ethanol

2020; Elsevier BV; Volume: 262; Linguagem: Inglês

10.1016/j.apenergy.2020.114528

1872-9118

Brian Gainey, James Gohn, Deivanayagam Hariharan, Mozhgan Rahimi-Boldaji, Benjamin Lawler,

Heat transfer and supercritical fluids

Recent results have concluded that the efficacy of compression stroke injections in enhancing natural thermal stratification are dependent on the injector's included angle. Therefore, there is a need to further understand how different hardware affects the efficacy of thermally stratified compression ignition. In this study, three injector included angles are considered: 150°, 118°, and 60°. Compression stroke injection timing sweeps are performed with these three injectors using two distinct piston geometries: a re-entrant bowl piston geometry found in a production, light-duty diesel engine, and a custom-made open, shallow bowl piston geometry, designed to reduce surface-to-volume ratio. Using an equivalence ratio of 0.5 and a split fraction of 80%, it was found that, with the re-entrant bowl piston geometry, the 150° injector displayed high controllability over the burn duration and was able to elongate the burn duration by a factor of 1.8×. The 118° injector displayed slight controllability over the burn duration, while the 60° injector displayed no controllability. With the open bowl piston geometry, the 150° maintained high controllability over the burn duration, albeit with less efficacy. The 60° injector still had no controllability and now the 118° injector had no controllability. The low surface-to-volume ratio of the shallow bowl piston led to less natural thermal stratification than the re-entrant bowl piston geometry, which impacted the compression stroke injection's ability to control the burn rate. Therefore, the hardware setup that achieves the highest efficacy is a re-entrant bowl-like piston geometry with a wide spray angle injector.